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1. A consensus phylogenomic approach highlights paleopolyploid and rapid radiation in the history of Ericales

   https://doi.org/10.1002/ajb2.1469  

   Larson, Drew A. ; Walker, Joseph F. ; Vargas, Oscar M. ; Smith, Stephen A. ( April 2020 , American Journal of Botany)

   Large genomic data sets offer the promise of resolving historically recalcitrant species relationships. However, different methodologies can yield conflicting results, especially when clades have experienced ancient, rapid diversification. Here, we analyzed the ancient radiation of Ericales and explored sources of uncertainty related to species tree inference, conflicting gene tree signal, and the inferred placement of gene and genome duplications.

   We used a hierarchical clustering approach, with tree‐based homology and orthology detection, to generate six filtered phylogenomic matrices consisting of data from 97 transcriptomes and genomes. Support for species relationships was inferred from multiple lines of evidence including shared gene duplications, gene tree conflict, gene‐wise edge‐based analyses, concatenation, and coalescent‐based methods, and is summarized in a consensus framework.

   Our consensus approach supported a topology largely concordant with previous studies, but suggests that the data are not capable of resolving several ancient relationships because of lack of informative characters, sensitivity to methodology, and extensive gene tree conflict correlated with paleopolyploidy. We found evidence of a whole‐genome duplication before the radiation of all or most ericalean families, and demonstrate that tree topology and heterogeneous evolutionary rates affect the inferred placement of genome duplications.

   We provide several hypotheses regarding the history of Ericales, and confidently resolve most nodes, but demonstrate that a series of ancient divergences are unresolvable with these data. Whether paleopolyploidy is a major source of the observed phylogenetic conflict warrants further investigation.

    

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2. Hidden in the DNA: How multiple historical processes and natural history traits shaped patterns of cryptic diversity in an Amazon leaf‐litter lizard Loxopholis osvaldoi (Squamata: Gymnophthalmidae)

   https://doi.org/10.1111/jbi.13748  

   Marques-Souza, Sergio ; Machado Pellegrino, Katia C. ; Oliveira Brunes, Tuliana ; Carnaval, Ana Carolina ; Pacheco Damasceno, Roberta ; Lima de Oliveira Borges, Manoela ; Candia Gallardo, Carlos ; Rodrigues, Miguel Trefaut ( December 2019 , Journal of Biogeography)

   To investigate the cryptic diversity and diversification timing in the putatively low‐dispersal Amazonian leaf‐litter lizardLoxopholis osvaldoi, and to ask how geography (rivers, isolation by distance, IBD), ecological drivers (isolation by environment, IBE) and historical factors (climatic refugia) explain intraspecific genetic variation.

   Central Amazonia, Brazil.

   Squamata; Gymnophthalmidae;Loxopholis osvaldoi.

   We sequenced two mitochondrial and two nuclear markers in 157 individuals. Phylogeographic structure and the occurrence of independent evolving lineages where explored through phylogenetic and coalescent analyses. A species tree and divergence dates of lineages were inferred with *BEAST, employing multiple DNA substitution rates. The potential genetic impacts of geographical distance among localities, the environment and the position of localities in relation to main rivers were tested by redundancy analysis (RDA).

   We detected 11 independently evolving and largely divergent intraspecific lineages. Lineage distribution patterns are complex and do not match any conspicuous barrier to gene flow, except for the Amazon River. Most lineages appear to have originated in the lower Miocene and Pliocene, in disagreement with the Pleistocene refuge hypothesis. IBD, IBE and rivers appear to have acted in concert establishing and maintaining genetic structure. However, when controlling for other explanatory variables, IBD explains significantly more variation than rivers, IBE or historical factors.

   Our results strongly suggest thatL.osvaldoiis a species complex. Future taxonomic work should use an integrative approach to explore whether morphological variation is present and congruent with the genetic data. While the use of a sensitive dating analysis allowed us to better describe the diversification history ofL.osvaldoi, the lack of a spatial model of Neogene river dynamics prevents the test of specific, more informative river barrier hypotheses. The data suggest that nonlinear correlation analyses (e.g. RDA) should be preferred to detect factors that affect phylogeographic patterns in the Amazon, instead of linear multiple regressions (e.g. Mantel tests). Given the high level of cryptic diversity detected within this and other Amazonian species, we caution against hypothesis tests based solely on the distribution of nominal taxa, which can provide a rather incomplete view of the processes behind Amazonian diversity.

    

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3. Gene Flow and Isolation in the Arid Nearctic Revealed by Genomic Analyses of Desert Spiny Lizards

   https://doi.org/10.1093/sysbio/syae001  

   Pavón-Vázquez, Carlos J. ; Rana, Qaantah ; Farleigh, Keaka ; Crispo, Erika ; Zeng, Mimi ; Liliah, Jeevanie ; Mulcahy, Daniel ; Ascanio, Alfredo ; Jezkova, Tereza ; Leaché, Adam D. ; et al ( January 2024 , Systematic Biology)

   The opposing forces of gene flow and isolation are two major processes shaping genetic diversity. Understanding how these vary across space and time is necessary to identify the environmental features that promote diversification. The detection of considerable geographic structure in taxa from the arid Nearctic has prompted research into the drivers of isolation in the region. Several geographic features have been proposed as barriers to gene flow, including the Colorado River, Western Continental Divide (WCD), and a hypothetical Mid-Peninsular Seaway in Baja California. However, recent studies suggest that the role of barriers in genetic differentiation may have been overestimated when compared to other mechanisms of divergence. In this study, we infer historical and spatial patterns of connectivity and isolation in Desert Spiny Lizards (Sceloporus magister) and Baja Spiny Lizards (Sceloporus zosteromus), which together form a species complex composed of parapatric lineages with wide distributions in arid western North America. Our analyses incorporate mitochondrial sequences, genomic-scale data, and past and present climatic data to evaluate the nature and strength of barriers to gene flow in the region. Our approach relies on estimates of migration under the multispecies coalescent to understand the history of lineage divergence in the face of gene flow. Results show that the S. magister complex is geographically structured, but we also detect instances of gene flow. The WCD is a strong barrier to gene flow, while the Colorado River is more permeable. Analyses yield conflicting results for the catalyst of differentiation of peninsular lineages in S. zosteromus. Our study shows how large-scale genomic data for thoroughly sampled species can shed new light on biogeography. Furthermore, our approach highlights the need for the combined analysis of multiple sources of evidence to adequately characterize the drivers of divergence.

    

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4. Integrative methods reveal multiple drivers of diversification in rice paddy snakes

   https://doi.org/10.1038/s41598-024-54744-z  

   Bernstein, Justin M. ; Voris, Harold K. ; Stuart, Bryan L. ; Karns, Daryl R. ; McGuire, Jimmy A. ; Iskandar, Djoko T. ; Riyanto, Awal ; Calderón-Acevedo, Camilo A. ; Brown, Rafe M. ; Gehara, Marcelo ; et al ( March 2024 , Scientific Reports)

   Divergence dating analyses in systematics provide a framework to develop and test biogeographic hypotheses regarding speciation. However, as molecular datasets grow from multilocus to genomic, sample sizes decrease due to computational burdens, and the testing of fine-scale biogeographic hypotheses becomes difficult. In this study, we use coalescent demographic models to investigate the diversification of poorly known rice paddy snakes from Southeast Asia (Homalopsidae:Hypsiscopus), which have conflicting dates of origin based on previous studies. We use coalescent modeling to test the hypothesis thatHypsiscopusdiversified 2.5 mya during the Khorat Plateau uplift in Thailand. Additionally, we use ecological niche analyses to identify potential differences in the niche space of the two most widely distributed species in the past and present. Our results suggestHypsiscopusdiversified ~ 2.4 mya, supporting that the Khorat Plateau may have initiated the diversification of rice paddy snakes. We also find significant niche differentiation and shifts between species ofHypsiscopus, indicating that environmental differences may have sustained differentiation of this genus after the Khorat Plateau uplift. Our study expands on the diversification history of snakes in Southeast Asia, and highlights how results from smaller multilocus datasets can be useful in developing and testing biogeographic hypotheses alongside genomic datasets.

    

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5. Cryptic diversity in the Mexican highlands: Thousands of UCE loci help illuminate phylogenetic relationships, species limits and divergence times of montane rattlesnakes (Viperidae: Crotalus )

   https://doi.org/10.1111/1755-0998.12970  

   Blair, Christopher ; Bryson, Jr, Robert W. ; Linkem, Charles W. ; Lazcano, David ; Klicka, John ; McCormack, John E. ( December 2018 , Molecular Ecology Resources)

   With the continued adoption of genome‐scale data in evolutionary biology comes the challenge of adequately harnessing the information to make accurate phylogenetic inferences. Coalescent‐based methods of species tree inference have become common, and concatenation has been shown in simulation to perform well, particularly when levels of incomplete lineage sorting are low. However, simulation conditions are often overly simplistic, leaving empiricists with uncertainty regarding analytical tools. We use a large ultraconserved element data set (>3,000 loci) from rattlesnakes of theCrotalus triseriatusgroup to delimit lineages and estimate species trees using concatenation and several coalescent‐based methods. Unpartitioned and partitioned maximum likelihood and Bayesian analysis of the concatenated matrix yield a topology identical to coalescent analysis of a subset of the data inbpp. ASTRAL analysis on a subset of the more variable loci also results in a tree consistent with concatenation andbpp, whereas theSVDquartetsphylogeny differs at additional nodes. The size of the concatenated matrix has a strong effect on species tree inference usingSVDquartets, warranting additional investigation on optimal data characteristics for this method. Species delimitation analyses suggest up to 16 unique lineages may be present within theC. triseriatusgroup, with divergences occurring during the Neogene and Quaternary. Network analyses suggest hybridization within the group is relatively rare. Altogether, our results reaffirm the Mexican highlands as a biodiversity hotspot and suggest that coalescent‐based species tree inference on data subsets can provide a strongly supported species tree consistent with concatenation of all loci with a large amount of missing data.

    

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